Well pressure activated pack-off head

ABSTRACT

One embodiment of the present invention discloses a well pressure activated pack off head to be used in conjunction with a wellhead situated on a hydrocarbon producing wellbore. The well pressure activated pack off head comprises a hollow body formed for coaxial connection to the wellhead, the hollow body must also provide for unobstructed passage of a data transmitting wireline therethrough.  
     Disposed within the hollow body is a pack off rubber with a passage formed along its longitudinal axis for passage of a data transmitting wireline therethrough The pack off rubber is coaxially situated within the hollow body. The pack off rubber can be formed from numerous materials, but the material must be pliable enough under the conditions of use to provide a pressure seal between it and the wireline passing through its axis.  
     Also located in the hollow body, above and proximate to the pack off rubber, is a pack off bushing. The pack off bushing is coaxial to the hollow body and has an axial passage formed along its axis to allow for passage of a data transmitting wireline through its axis. The pack off bushing should have a higher hardness than the pack off rubber, typical materials include brass or hard face steel.  
     The well pressure activated pack off head further includes a piston coaxially situated within the hollow body and also has an axial passage formed concentric along its axis that allows for passage of a data transmitting wireline through it. The bottom of the piston is its wellbore pressure side and its top is its ambient pressure side. The wellbore pressure side of the piston is in pressure communication with the wellbore. The ambient pressure side of the piston is in pressure communication with the ambient space surrounding the pressure pack off head. The piston is situated below the pack off rubber, which puts the pack off rubber between the piston and the pack off bushing.  
     When the pressure of the wellbore, and thus the wellbore pressure side, exceeds the ambient pressure, the pressure differential experienced by the piston urges it toward the pack off bushing and pack off rubber. Continued upward movement of the piston causes the piston to contact the pack off rubber and push the pack off rubber against the pack off bushing. This pushing action compresses the pack off rubber between the piston and the pack off bushing such that compression of the pack off rubber compresses the pack off rubber axial passage around the data transmitting wireline. Compression of the pack off rubber axial passage around the data transmitting wireline eventually provide a pressure seal between the pack off rubber axial passage and the data transmitting wireline passing therethrough.

RELATED APPLICATIONS

[0001] This application claims priority from co-pending U.S. ProvisionalApplication No. 60/251,292, filed Dec. 5, 2000, the full disclosure ofwhich is hereby incorporated by reference herein.

BACKGROUND OF THE INVENTION

[0002] 1. Field of the Invention

[0003] The invention relates generally to the field of oil and gas wellservices. More specifically, the present invention relates to anapparatus that provides a pressure seal around a wireline during oilfield service operations.

[0004] 2. Description of Related Art

[0005] Numerous techniques, generally known as well logging, exist forcollecting geological data from oil and/or gas wells, where thegeological data is useful for locating potential hydrocarbon bearingreservoirs. Well logging is also used for estimating the capacity of thepotential hydrocarbon bearing reservoirs. Many types of well loggingpractices exist. They include neutron logs, induction logs, and acousticlogs. In each of the aforementioned well logging techniques a welllogging tool is deposited into the wellbore and travels through the wellbore collecting geological data about the region surrounding the wellbore. Generally the well logging tool produces a signal, eitherelectrical, nuclear, or acoustical, which is directed into the areaadjacent the well bore. The reflection or propagation of the emittedsignal is then retrieved by the tool or by another piece of equipmentsuitably located. The retrieved signals are stored and analyzed in orderto evaluate the potential for hydrocarbon production in the particulargeological formation being analyzed, monitor reservoir performance, orto evaluate wellbore mechanical integrity.

[0006] Generally, the well logging tool is inserted into the well boreattached to a wireline. The tool is raised and lowered by the wireline,and data is transmitted through the wireline for introducing signals tothe well logging tool from the surface. The wire line can also transmitdata recovered from within the well bore to the surface for collectionand analysis.

[0007] As a secondary safety measure, a pressure containment apparatus,or pack off head, is often installed on the well during wirelineoperations. Wireline (or slick-line) pack off heads (oil savers) havebeen used by the oil field service industry for many years. A pack offhead is designed to make a pressure seal around a wireline to containthe well pressure during trips in and out of the well. If duringwireline operations a well kick were experienced, an unsafe conditionwould occur if the well head was not contained but instead left open toatmosphere. A typical pack off head includes a hard rubber insert with apassage where the wire line passes through the annulus. To seal aroundthe wireline, the hard rubber insert is axially compressed, whichreduces the cross sectional area of the passage. Reducing the crosssectional area of the passage causes the inner radius of the passage tofit snugly around the outer radius of the wire line, thus preventingfluid flow through the passage. Although the passage snugly seals aroundthe outer radius of the wire line, the wire line is still able to freelytraverse through the passage.

[0008] Traditionally, pack off heads have been manual or hydraulic. Amanual style pack off head is usually comprised of a threaded cap thatcompresses the rubber packing element as the cap is screwed down ontothe head assembly. This operation is typically performed by hand. Thehydraulic style pack off head has a hydraulic cylinder that is expandedvia hydraulic pressure provided by a hand pump connected to the head bya hydraulic hose. The pack off head cylinder expands as pressure issupplied to it, expansion of the pack off head cylinder in turncompresses the pack off element. Both the manual and the hydraulic packoff heads compress a packing element to provide a seal around thewireline and both require personnel to perform this function.

[0009] Therefore, a method or an apparatus is desired that provides anautomatic pressure sealing function around a wireline when the pack offhead is located in an area that is not accessible to be either manuallyor hydraulically operated while a wireline is being lowered into anddrawn from a hydrocarbon producing wellbore.

BRIEF SUMMARY OF THE INVENTION

[0010] One embodiment of the present invention discloses a well pressureactivated pack off head to be used in conjunction with a wellheadsituated on a hydrocarbon producing wellbore. The well pressureactivated pack off head comprises a hollow body formed for coaxialconnection to the wellhead, the hollow body must also provide forunobstructed passage of a data transmitting wireline therethrough.

[0011] Disposed within the hollow body is a pack off rubber with apassage formed along its longitudinal axis for passage of a datatransmitting wireline therethrough The pack off rubber is coaxiallysituated within the hollow body. The pack off rubber can be formed fromnumerous materials, but the material must be pliable enough under theconditions of use to provide a pressure seal between it and the wirelinepassing through its axis.

[0012] Also located in the hollow body, above and proximate to the packoff rubber, is a pack off bushing. The pack off bushing is coaxial tothe hollow body and has an axial passage formed along its axis to allowfor passage of a data transmitting wireline through its axis. The packoff bushing should have a higher hardness than the pack off rubber,typical materials include brass or hard face steel.

[0013] The well pressure activated pack off head further includes apiston coaxially situated within the hollow body and also has an axialpassage formed concentric along its axis that allows for passage of adata transmitting wireline through it. The bottom of the piston is itswellbore pressure side and its top is its ambient pressure side. Thewellbore pressure side of the piston is in pressure communication withthe wellbore. The ambient pressure side of the piston is in pressurecommunication with the ambient space surrounding the pressure pack offhead. The piston is situated below the pack off rubber, which puts thepack off rubber between the piston and the pack off bushing.

[0014] When the pressure of the wellbore, and thus the wellbore pressureside, exceeds the ambient pressure, the pressure differentialexperienced by the piston urges it toward the pack off bushing and packoff rubber. Continued upward movement of the piston causes the piston tocontact the pack off rubber and push the pack off rubber against thepack off bushing. This pushing action compresses the pack off rubberbetween the piston and the pack off bushing such that compression of thepack off rubber compresses the pack off rubber axial passage around thedata transmitting wireline. Compression of the pack off rubber axialpassage around the data transmitting wireline eventually provides apressure seal between the pack off rubber axial passage and the datatransmitting wireline passing therethrough. The well pressure activatedpack off head can also include a rubber compressor disposed between thepiston and the pack off rubber, the rubber compressor transmits theaxial compressing force from the piston to the pack off rubber.

[0015] To prevent pressure spikes in the wellbore from causing transienthigh forces upon the pack off rubber, the pressure pack off headincludes a pressure regulator that controls the pressure between thewellbore and the piston. One example of a pressure regulator is arestriction orifice that regulates the pressure differential across thepiston which limits the maximum force that the piston can apply to thepack off rubber (or the rubber compressor).

[0016] Also included in the well pressure activated pack off head is aspring that urges the piston away from said pack off rubber when thespring force exceeds the force experienced by the piston resulting fromthe pressure differential across its two sides. The size, configuration,and material of the spring is based on the application of the wellpressure activated pack off head.

[0017] An alternative embodiment of the well pressure activated pack offhead also includes a hollow body, a piston, a pack off rubber, and apack off bushing axially situated in the hollow body. Here the pistonhas a wellbore pressure side and an ambient side. Also included in thisalternative is a hydraulic piston and a means for communicating pressurefrom the ambient pressure side of the piston to the hydraulic piston.

[0018] Within the pressure communication means is a pressure regulatorthat controls the pressure that is delivered to the hydraulic pistonfrom the ambient pressure side of the piston. As in the firstembodiment, the pressure control means limits pressure excursionsexperienced in the wellbore from exerting high compression forces ontothe pack off rubber.

[0019] Like the first embodiment, the alternative embodiment operates onthe principal that the wellbore pressure will exceed the ambientpressure around the pack off head. The pressure differential is thenutilized to produce a force that compresses the hydraulic piston againstthe pack off rubber, this squeezes the pack off rubber around the datatransmitting wireling to providesa pressure seal around the pack offrubber and the data transmitting wireline. Also included in thealternative embodiment of the well pressure activated pack off head is aspring axially provided in the hollow body situated to urge thehydraulic piston away from the pack off rubber when the forceexperienced by the pressure differential across the hydraulic piston islower than the spring force.

[0020] A third embodiment of a well pressure activated pack off headalso comprises a hollow body, a pack off rubber, a pack off bushing, anda piston axially located in the hollow body. Like the other embodiments,these components are all formed to allow free passage of a wirelinealong their axis.

[0021] The piston has a top side, a bottom side, and a shaft connectingthe piston top side to a rubber compressor. The piston bottom side is inpressure communication with the wellbore, and the pack off rubber issituated between said pack off bushing and said rubber compressor.

[0022] Like the other embodiments, this embodiment works on theprincipal of a force resulting from a pressure differential across anobject. Because the wellbore pressure will generally exceed the ambientpressure around the well pressure activated pack off head, those twopressures are disposed across opposite faces of an object to produce aforce, here the object is the piston. The resulting force across thepiston is used to compress the pack off rubber against the pack offbushing. A compressed pack off rubber will result in a pressure sealbetween it and a data transmitting wireline passing through the axialpassage of the pack off rubber.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING.

[0023]FIG. 1 illustrates a cross section of the well pressure activatedpack off head.

[0024]FIG. 2 shows a cross section of an alternative embodiment of thewell pressure activated pack off head.

[0025]FIG. 3 depicts yet another alternate embodiment of the wellpressure activated pack off head.

DETAILED DESCRIPTION OF THE INVENTION

[0026] With reference to the drawing herein, a Well Pressure ActivatedPack Off Head 30 according to one embodiment of the invention is shownin FIG. 1. The cross-sectional view of FIG. 1 illustrates that the WellPressure Activated Pack Off Head 30 includes a pack off bushing 39, apack off rubber 33, a pressure port 37, a spring 32, a rubber compressor41, a hollow body 20, and a piston 34. Each component of the WellPressure Activated Pack Off Head 30 should contain an axial passagesuitable for passage of a well logging wireline 15 through the WellPressure Activated Pack Off Head 30. To ensure that the pack off rubber33 properly seals around a wireline 15, it is important that the packoff rubber 33 material be sufficiently pliable to perform under theextreme cold or hot conditions for which it will be used, and yet be ofadequate resiliency to sustain the pressure applied to it to precludeleakage between the pack off rubber 33 and the wireline 15.

[0027] Use of the Well Pressure Activated Pack Off Head 30 is notlimited to traditional grade or sea surface oil and/or gas wells but canalso be used with subsea applications and other applications where thewell head is in an inaccessible or difficult to monitor location.Utilization of the Well Pressure Activated Pack Off Head 30 in place ofprior art pack off heads eliminates the need to constantly monitor andadjust the sealing force of the pack off rubber of these prior art packoff heads. Further, the Well Pressure Activated Pack Off Head 30, whenused during any wireline operation, such as well logging, wellperforating, or mechanical services, is capable of providing safetymeasures in a well where the wellbore pressure exceeds the pressure ofthe surrounding formation.

[0028] One of the advantages of the present invention is that anautomated pressure seal can be provided around the wireline 15 at thewellbore entrance. Because the pressure seal is automated, the risk ofhuman error during operations is reduced. Also reduced are the resourcesof added personnel required to monitor and adjust a manually operatedpack off head. During wireline operations, gas bubbles from hydrocarbonsentrained in the wellbore, and adjacent formations, can begin to formbeneath the wireline tool as the tool is traversed through the wellboreIf enough gas bubbles form below the wireline tool, the buoyancyprovided by the gas bubbles can exert an upward force onto the toolwhich in turn attempts to eject the tool from the wellbore. This isknown as a “well kick”. Well kicks can be detected by the well operatorsat the surface by monitoring the fluids that are exiting the wellbore.

[0029] If well operators determine that a well kick is imminent, theycan actuate the rams provided on a well blow out preventer (not shown).If the situation is determined to be severe enough, a shear ram will beactuated which will shear whatever is inserted through the wellbore,either the wireline 15 or a drill string. Shearing the wireline 15 willallow whatever is located in the wellbore beneath the shear ram to falldeep into the wellbore, which can terminate hydrocarbon production fromthe wellbore, this is an undesireable result. Other undesireable effectsof using shear rams include leaving expensive well logging tools in awellbore, some of which are radioactive, and wireline 15 becomingentangled with drill pipe. Implementation of the Well Pressure ActivatedPack Off Head 30 can seal the well during some well kicks and thereforeeliminate the need to immediately suspend well operations.

[0030] The Well Pressure Activated Pack Off Head is generally attachedto a wellbore by threaded attachment of the coupling 36. This providespressure communication between the pack off head passage 38 and thewellbore, which in turn puts the piston wellbore side 34 a in pressurecommunication with the well bore as well. The pressure port 37 providespressure communication between the piston spring side 34 b and theambient conditions experienced by the Well Pressure Activated Pack OffHead 30. In surface operations this will be atmospheric pressure, insubsea applications the ambient pressure will be the pressure at the seafloor. Accordingly, when the wellbore pressure exceeds ambient pressure,a pressure differential will exist across the piston 34. This pressuredifferential produces a resultant force which pushes the piston 34upwards against the rubber compressor 41. When the rubber compressor 41is pushed upward by the piston 34, the rubber compressor 41 willcompress the pack off rubber 33 against the pack off bushing 39. Thisreduces the cross sectional area of the rubber inner passage 33 a andsqueezes the rubber inner passage 33 a tightly around the wireline 15,thus providing a seal to prevent leakage across the pack off rubber 33.Leakage between the outer radius of the piston 34 and the inner passageof the pressure pack off head body 30 a is prevented by a piston seal35. Although the pack off rubber 33 is sealingly engaged tightly aroundthe wireline 15, the wireline 15 must still able to freely transversethrough the pack off head passage 38.

[0031] Because of the wear experienced by the pack off bushing 39 andthe rubber compressor 41, it is preferred they be formed from a materialthat can withstand repeated traversals of wireline 15 through their axiswithout experienced undue wear. Suitable materials would include eitherbrass or hard faced steel. However, the operating environment in whichthe well pressure activated pack off head is exposed to will also be afactor in decided exactly which material to use for these components.

[0032] During wireline operations the rubber inner passage 33 a willexperience some wear. Although the wear will result in material loss ofthe inner annulus of the pack off rubber 33, the pack off rubber 33 willcontinue to seal against the wireline 15 because of the constantcompressive force applied to it by the rubber compressor 41. When thepiston wellbore side 34 a is no longer exposed to the borehole pressure,or the borehole pressure is sufficiently decreased below the springforce of the spring 32, the spring 32 will return the piston 34 to itsoriginal position against the pressure pack off head body 30 a. Thedimensions and characteristics of the spring 32 are determined based onthe well parameters. When the spring 32 moves the piston 34 away fromthe rubber compressor 41, the rubber compressor 41 will cease to applyforce to the pack off rubber 33, and therefore no longer compress it.

[0033] The cross sectional area of the pressure port 37 can be adjustedto regulate the fluid flow from the ambient pressure side of the piston34 to the ambient space surrounding the Well Activated Pressure Pack OffHead 30. The cross sectional area of the pressure port 37 can beenlarged by drilling a larger aperture, or can be reduced by adding arestriction orifice or a ferrel. Regulating the fluid flow exiting thepressure port 37, and more specifically limiting this flow, will dampenthe upward movement and impulse force that the piston 34 applies to thepack off rubber 33. It is desired to not allow pressure spikes onto thepack off rubber 33 as this can cause episodes of increased squeezingforce onto the wireline 15, which can damage it.

[0034] In FIG. 2, one alternative embodiment of the Well PressureActivated Pack Off Head 80 is depicted. This embodiment also implementsa pack off head upper body 81, a pack off head lower body 82, a piston85, a pack off rubber 33, a pack off bushing 39, and a bushing spring40. In this embodiment of the Well Pressure Activated Pack Off Head 80,the piston 85 includes a piston bottom 85 a and piston shaft 85 b.Attached to the top of the piston shaft 85 b is an alternativeembodiment of the rubber compressor 89, and provided on the piston shaft85 b is a piston spring 86. The piston shaft 85 b is formed to fitwithin an aperture 81 a formed concentrically on the bottom of the packoff head upper body 81.

[0035] Because the piston bottom 85 a is in pressure communication withthe wellbore the piston 85 will be forced upward when the wellborepressure is greater than the pressure at the piston top side 85 c.Continued upward movement of the piston 85 causes the rubber compressor89 to impinge the pack off rubber 33 against the pack off bushing 39 andsqueeze the inner radius of the pack off rubber 33 against the wireline15. Here, the bushing spring 40 will be compressed when the pack offrubber 33 is squeezed against the pack off bushing 39, and will expandto its original configuration when the spring force of the bushingspring 40 surpasses the force applied by the piston 85 due to wellborepressure. Similarly, when upward force supplied to the piston 85 by thewellbore pressure is less than the spring force of the piston spring 86,the piston spring 86 will expand and push the piston 85 away from thepack off rubber 33.

[0036] To prevent pressure communication across the piston 85, a pistonhead seal 87 is provided to provide a sealing function between thepiston 85 and the inner surface of the pack off head lower body 82. Thepiston shaft seal 88, situated between the piston shaft 85 b and thepack off head upper body 81, provides a pressure seal between the pistontop side 85 c and the aperture 81 a.

[0037]FIG. 3 depicts yet another embodiment of the Well PressureActivated Pack Off Head 70. The Well Pressure Activated Pack Off Head 70includes a piston 75, a hydraulic piston 78, a rubber compressor 79, aspring 32, an annulus 73, tubing 74, a pressure regulator 71, a pack offhead upper body 76, a pack off head lower body 77, a pack off bushing39, a pack off rubber 33, and a reservoir 72. In this embodiment, thebottom of the piston 75 is exposed to the wellbore pressure, so thatwhen the pressure of the wellbore is different than the pressure of thereservoir 72, the piston 75 will experience a pressure gradient acrossits body. Further, when the pressure gradient results in an upward forcethat overcomes the static friction of the piston 75, the piston 75 willmove upward.

[0038] The reservoir 72 is filled either with a fluid, including a gas(such as air or nitrogen), hydraulic fluid, or grease. When the piston75 (which is situated in the pack off head lower body 77) is movedupward the volume of the reservoir 72 is decreased, which forces some ofthe contents of the reservoir 72 into the tubing 74. The fluid contentsof the reservoir 72 that enters the tubing 74 is directed into theannulus 73, which in turn increases the pressure of the annulus 73.Situated on the tubing 74, the pressure regulator 71 controls thepressure of the fluid flow into the annulus 73.

[0039] When the pressure in the annulus 73 (as supplied via the tubing74) exceeds the spring force of the spring 32, the hydraulic piston 78moves downward and pushes the rubber compressor 79 against the pack offrubber 33. Continued movement of the rubber compressor 79 against thepack off rubber 33 ultimately squeezes the pack off rubber 33 againstthe pack off bushing 39, this reduces the inner radius of the pack offrubber 33 and results in a seal against the wireline 15. The pack offrubber 33 will continue to provide a seal along the wireline 15 untilthe force applied to the hydraulic piston 78 by the annulus pressure isless than the spring force of the spring 32.

[0040] The pressure regulator 71 works the same as a pressure controlvalve. The purpose of the pressure regulator 71 is to provide a constantsupply of pressure to the hydraulic piston 78, this eliminates highpressure excursions experienced by the well bore from acting on thehydraulic piston 78. If the hydraulic piston 78 is exposed to suddenepisodes of high pressure, it will then translate Act the pressure to asudden high force onto the rubber compressor 79 and ultimately the packoff rubber 33. Sudden high forces applied to the pack off rubber 33 bythe rubber compressor 79 will in turn cause the pack off rubber 33 tosqueeze the wireline 15 such that the wireline 15 can be damaged.

[0041] The present invention described herein, therefore, is welladapted to carry out the objects and attain the ends and advantagesmentioned, as well as others inherent therein. While a presentlypreferred embodiment of the invention has been given for purposes ofdisclosure, numerous changes in the details of procedures foraccomplishing the desired results. For example the invention can be usedas an additional safety measure for any wireline procedure, such asperforations and plug setting, These and other similar modificationswill readily suggest themselves to those skilled in the art, and areintended to be encompassed within the spirit of the present inventiondisclosed herein and the scope of the appended claims.

What is claimed is:
 1. A well pressure activated pack off head for usein conjunction with a wellhead situated on a hydrocarbon producingwellbore comprising: a hollow body formed for coaxial connection to thewellhead and for providing unobstructed passage of a data transmittingwireline therethrough; a pack off rubber having an axial passage thereinformed for passage of a data transmitting wireline therethrough, saidpack off rubber is coaxially situated within said hollow body; a packoff bushing having an axial passage therein formed for passage of a datatransmitting wireline therethrough, said pack off bushing is coaxiallysituated within said hollow body; a piston coaxially situated withinsaid hollow body and having an axial passage therein formed for passageof a data transmitting wireline therethrough, said piston having awellbore pressure side and an ambient pressure side, said wellborepressure side in pressure communication with said wellbore, said ambientpressure side is in pressure communication with the ambient spacesurrounding said pressure pack off head; and wherein said pack offrubber is located between said pack off bushing and said piston.
 2. Thewell pressure activated pack off head of claim 1, wherein said piston isurged toward said pack off bushing when the pressure of said wellborepressure side sufficiently exceeds said ambient pressure side therebycompressing said pack off rubber between said piston and said pack offbushing such that compression of said pack off rubber compresses saidpack off rubber axial passage around the data transmitting wireline toprovide a pressure seal between said pack off rubber axial passage andthe data transmitting wireline passing therethrough.
 3. The pressurepack off head of claim 1 further comprising a pressure regulatorcontrolling the pressure between the wellbore and said piston.
 4. Thepressure pack off head of claim 1 further comprising a rubber compressoraxially disposed in said pressure pack off head between said piston andsaid pack off rubber for translating axial force from said piston tosaid pack off rubber.
 5. The pressure pack off head of claim 1 furthercomprising a dampening system for controlling the rate of force appliedto said pack off rubber by said piston.
 6. The dampening system of claim4 comprising a restriction orifice for regulating the fluid flow fromthe ambient side of said piston to the ambient area surrounding saidpressure pack off head.
 7. The pressure pack off head of claim 1 furthercomprising a spring which urges said piston away from said pack offrubber when the spring force of said spring exceeds the force applied tosaid piston by the pressure of the wellbore.
 8. A well pressureactivated pack off head for use in conjunction with a wellhead situatedon a hydrocarbon producing wellbore comprising: a hollow body formed forcoaxial connection to the wellhead and providing for unobstructedpassage of a data transmitting wireline through said hollow body; a packoff rubber having an axial passage therein formed for passage of a datatransmitting wireline therethrough, said pack off rubber being coaxiallysituated within said hollow body; a pack off bushing having an axialpassage therein formed for passage of a data transmitting wirelinetherethrough, said pack off bushing being coaxially situated within saidhollow body; a piston coaxially located within said well pressureactivated pack off head and having an axial passage formed therethroughfor passage of a data transmitting wireline, said piston having awellbore pressure side and a hydraulic reservoir pressure side; whereinsaid piston wellbore pressure side is in pressure communication with thewellbore; a hydraulic reservoir in pressure communication with thehydraulic reservoir pressure side of said piston; a hydraulic pistoncoaxially located within said hollow body and having an axial passageformed therethrough for passage of a data transmitting wireline, whereinsaid hydraulic piston is provided with a recess along its outer radialaxis that forms an annulus between said hydraulic piston and said hollowbody; wherein said pack off rubber is situated between said pack offbushing and said hydraulic piston; a spring axially provided in saidhollow body situated to urge said hydraulic piston away from said packoff rubber; and a means for providing pressure communication betweensaid hydraulic reservoir and said annulus.
 9. The well pressureactivated pack off head of claim 8 wherein said piston is responsive tothe wellbore pressure and is urged into said hydraulic reservoir whenthe wellbore pressure is greater than the hydraulic reservoir pressurethereby increasing the pressure of said hydraulic reservoir which inturn provides added pressure to said annulus via said pressurecommunication means,
 10. The well pressure activated pack off head ofclaim 8 wherein when the force applied to said hydraulic piston by thepressure of said annulus overcomes the force applied to said hydraulicpiston by said spring, said hydraulic piston is urged toward said packoff bushing thereby compressing said pack off rubber between said pistonand said pack off bushing which compresses said pack off rubber axialpassage around the data transmitting wireline to create a pressure sealbetween said pack off rubber axial passage and the data transmittingwireline.
 11. The well pressure activated pack off head of claim 8wherein said hollow body is comprised of an upper chamber and a lowerchamber, said lower chamber housing said piston and said hydraulicreservoir, and said upper chamber housing said hydraulic piston, saidpack off bushing and said pack off rubber.
 12. A well pressure activatedpack off head for use in conjunction with a wellhead situated on ahydrocarbon producing wellbore comprising: a hollow body formed forcoaxial connection to the wellhead and for providing unobstructedpassage of a data transmitting wireline therethrough; a pack off rubberhaving an axial passage therein formed for passage of a datatransmitting wireline therethrough, said pack off rubber being coaxiallysituated within said hollow body; a pack off bushing having an axialpassage therein formed for passage of a data transmitting wirelinetherethrough, said pack off bushing being coaxially situated within saidhollow body; a piston coaxially located within said hollow body andhaving an axial passage formed therethrough for passage of a datatransmitting wireline, said piston having a top side, a bottom side, anda shaft connecting the piston top side to a rubber compressor; whereinsaid piston bottom side is in pressure communication with the wellbore;and wherein said pack off rubber is situated between said pack offbushing and said rubber compressor.
 13. The well pressure activated packoff head of claim 12, wherein said piston is urged toward said pack offbushing when the pressure of said wellbore pressure side sufficientlyexceeds said ambient pressure side thereby compressing said pack offrubber between said piston and said pack off bushing such thatcompression of said pack off rubber compresses said pack off rubberaxial passage around the data transmitting wireline to provide apressure seal between said pack off rubber axial passage and the datatransmitting wireline passing therethrough.
 14. The well pressureactivated pack off head of claim 12 further comprising a spring axiallydisposed in the uppermost top portion of said hollow body proximate tosaid pack off bushing.